libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-tga.c:192:19.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-bmp.c:326:17.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-bmp.c:314:7.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-bmp.c:319:7.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-tga.c:498:55.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in autotrace.c:188:23.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-bmp.c:486:7.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-tga.c:508:18.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-tga.c:528:63.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in autotrace.c:191:2.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the ReadImage function in input-tga.c:538:33.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the GET_COLOR function in color.c:17:11.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the pnm_load_ascii function in input-pnm.c:303:12.
libautotrace.a in AutoTrace 0.31.1 has a "left shift ... cannot be represented in type int" issue in input-bmp.c:516:63.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in input-bmp.c:309:7.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the ReadImage function in input-tga.c:559:29.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the ReadImage function in input-bmp.c:492:24.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the pnm_load_rawpbm function in input-pnm.c:391:13.
libautotrace.a in AutoTrace 0.31.1 has a "cannot be represented in type int" issue in pxl-outline.c:106:54.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the pnm_load_raw function in input-pnm.c:346:41.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-tga.c:528:7.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:355:25.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:497:29.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:337:25.
libautotrace.a in AutoTrace 0.31.1 has a stack-based buffer overflow in the pnmscanner_gettoken function in input-pnm.c:458:12.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:496:29.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the GET_COLOR function in color.c:18:11.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:370:25.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the ReadImage function in input-tga.c:620:27.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the rle_fread function in input-tga.c:252:15.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer over-read in the GET_COLOR function in color.c:16:11.
libautotrace.a in AutoTrace 0.31.1 has a heap-based buffer overflow in the ReadImage function in input-bmp.c:353:25.
A biWidth*biBitCnt integer overflow in input-bmp.c in autotrace 0.31.1 allows attackers to provide an unexpected input value to malloc via a malformed bitmap image.
An exploitable arbitrary memory read vulnerability exists in the MQTT packet parsing functionality of Cesanta Mongoose 6.8. A specially crafted MQTT packet can cause an arbitrary out-of-bounds memory read and write potentially resulting in information disclosure, denial of service and remote code execution. An attacker needs to send a specially crafted MQTT packet over the network to trigger this vulnerability.
In the Zephyr Project MQTT code, improper bounds checking can result in memory corruption and possibly remote code execution. NCC-ZEP-031 This issue affects: zephyrproject-rtos zephyr version 2.2.0 and later versions.
An exploitable memory corruption vulnerability exists in the Websocket protocol implementation of Cesanta Mongoose 6.8. A specially crafted websocket packet can cause an integer overflow, leading to a heap buffer overflow and resulting in denial of service and potential remote code execution. An attacker needs to send a specially crafted websocket packet over network to trigger this vulnerability.
NGINX before 1.13.6 has a buffer overflow for years that exceed four digits, as demonstrated by a file with a modification date in 1969 that causes an integer overflow (or a false modification date far in the future), when encountered by the autoindex module.
In ARM mbed TLS before 2.7.0, there is a bounds-check bypass through an integer overflow in PSK identity parsing in the ssl_parse_client_psk_identity() function in library/ssl_srv.c.
In exif_entry_get_value of exif-entry.c, there is a possible out of bounds write due to an integer overflow. This could lead to remote code execution if a third party app used this library to process remote image data with no additional execution privileges needed. User interaction is not needed for exploitation.Product: AndroidVersions: Android-8.1 Android-9 Android-10 Android-11 Android-8.0Android ID: A-159625731
In libAACdec, there is a possible out of bounds write due to an integer overflow. This could lead to remote code execution with no additional execution privileges needed. User interaction is needed for exploitation. Product: AndroidVersions: Android-10Android ID: A-112663384
In all Qualcomm products with Android releases from CAF using the Linux kernel, an integer overflow vulnerability exists in the hypervisor.
In wma_peer_info_event_handler() in Android for MSM, Firefox OS for MSM, and QRD Android before 2017-10-03, the value of num_peers received from firmware is not properly validated so that an integer overflow vulnerability in the size of a buffer allocation may potentially lead to a buffer overflow.
Due to incorrect string size calculations inside the preg_quote function, a large input string passed to the function can trigger an integer overflow leading to a heap overflow. This issue affects HHVM versions prior to 4.56.3, all versions between 4.57.0 and 4.80.1, all versions between 4.81.0 and 4.93.1, and versions 4.94.0, 4.95.0, 4.96.0, 4.97.0, 4.98.0.
In Qualcomm Android for MSM, Firefox OS for MSM, and QRD Android with all Android releases from CAF using the Linux kernel before security patch level 2018-04-05, if the firmware sends a service ready event to the host with a large number in the num_hw_modes or num_phy, then it could result in an integer overflow which may potentially lead to a buffer overflow.
Multiple integer overflows in CCN-lite before 2.00 allow context-dependent attackers to have unspecified impact via vectors involving the (1) vallen variable in the iottlv_parse_sequence function or (2) typ, vallen and i variables in the localrpc_parse function.
Because of an integer overflow in sam2p 0.49.3, a loop executes 0xffffffff times, ending with an invalid read of size 1 in the Image::Indexed::sortPal function in image.cpp. However, this also causes memory corruption because of an attempted write to the invalid d[0xfffffffe] array element.
Integer overflow in the decode_digit function in puny_decode.c in Libidn2 before 2.0.4 allows remote attackers to cause a denial of service or possibly have unspecified other impact.
Integer overflow in the _isBidi function in bidi.c in Libidn2 before 2.0.4 allows remote attackers to cause a denial of service or possibly have unspecified other impact.
Multiple integer overflows in the (1) cdf_read_property_info and (2) cdf_read_sat functions in file before 5.02.
Multiple integer overflows in FreeType 2.3.9 and earlier allow remote attackers to execute arbitrary code via vectors related to large values in certain inputs in (1) smooth/ftsmooth.c, (2) sfnt/ttcmap.c, and (3) cff/cffload.c.